BUREAU VERITAS
MINERAL LABORATORIES
MINERALOGY REPORT: N7382XD16
XRD & SEM ANALYSIS OF ONE DUST SAMPLE
CLIENT: EPA
CLIENT DETAILS
Company Environment Protection Authority (EPA)
Address Building 22/310 Richmond Road, Netley, S.A. 5037, AUSTRALIA
The EPA submitted 1 dust sample on a filer paper, as well as a blank filter paper for XRD and SEM analysis. Please see below table for sample information
Sample BV ID XRD SEM/EDS
AB9183 AB9183 1 1 Blank Blank 1 N/A
TOTAL 2 1
Note: Non-hazardous samples will be automatically disposed of after 3 months; hazardous samples will be automatically returned to the client, at the client expense, after 3 months, unless otherwise advised by the client.
QXRD Analyses
25mm circles were cut from both the sample filter paper as well as blank filter and stuck to a piece of aluminium prior to be placed into the XRD holder. The XRD trace was collected under the following instrument conditions.
XRD system PANalytical X’Pert Pro PW3040 diffractometer, 40 kV, 40 mA Filter Iron Radiation CoKa (l = 1.789Å) Angular range 5° to 80° 2θ Angular speed 0.04426° 2θ/second Step size 0.0167° Divergence Slit ¼o
Anti-scatter Slit ½o
Spinning 0.50 second per revolution
Mineral identification was undertaken using the X’Pert HighScore Plus search/match software.
A high degree of uncertainty exists when determining trace minerals (<5 wt%) by XRD. This is due to the relatively high background noise which tends to obscure minor peaks, which are required for a positive identification of a particular mineral. X-Ray Diffraction (XRD) analysis provides information on the presence and abundance of crystalline mineral phases in a sample. XRD is unable to identify amorphous (non-crystalline) material.
SEM Analyses
The sample was mounted using a double sided carbon tab; circles were cut from the sample filter paper and on the double sided carbon tab. The sample block was coated with carbon prior to SEM analysis.
SEMEDS cannot measure elements below Sodium, in particular Oxygen, Carbon and Hydrogen. It must also be noted that the energies of the characteristic X-rays emitted by the elements in a sample allow them to be identified however there are many overlapping peaks from different elements, such as S, Mo and Pb. Thus the chemical composition data presented should be treated as indicative only.
The EDS results are calculated using standardless ZAF correction on the basis of peak-to-background ratios including light elements (data is normalised to 100%)
The electron beam used to create x-ray can penetrate 2-5 microns depending on the material being analysed. Textures of more than one mineral that has a texture less than 5 microns, will obtain a mixed spectrum.
Reported by:
Mineralogy Supervisor Bureau Veritas Australia Pty Ltd
QUALITATIVE XRD RESULTS
Qualitative XRD results (wt %) In
tens
ity (c
ount
s)
Mineral Composition Blank AB9183 Aluminum1 Al D D Halite NaCl ND A Quartz SiO2 ND A Gypsum CaSO4(H2O)2 ND Tr Unassigned peak2 10.29°2θ, 9.99Å, Tr ND Unassigned peak2 12.31°2θ, 8.35Å Tr ND Unassigned peak2 15.72°2θ, 6.54Å Tr ND 1. Aluminium is highly likely from the Aluminium disc the filter paper was stuck too. 2. Due to peak intensity, an unidentified peak/phase was observed. Further work is required to determine the mineral giving rise to this peak.
Qualitative Abbreviations D = Dominant. Used for the component apparently most abundant, regardless of its probable percentage level. CD = Co-dominant. Used for two (or more) predominating components, both or all of which are judged to be present, in roughly equal amounts. SD = Sub-dominant. The next most abundant component(s) providing its percentage level is judged above about 20%. A = Accessory. Components judged to be present between the levels of roughly 5 and 20%. Tr = Trace. Components judged to be below about 5%. ND = Not Detected
6400
3600
1600
400
0 10 20 30 40 50 60 70
2Theta (°)
SEMI QUANTITATIVE SEM/EDS
EDS Results (wt %) For Sample AB9183
Spectrum O Na Mg Al Si P S Cl K Ca Ti Mn Fe Sr Ba Pb Bulk 1 36 8 1 3 16 1 2 0 4 0 0 Bulk 2 36 8 1 3 16 1 2 1 4 0 0 Bulk 3 36 8 1 3 15 1 2 0 4 0 0
s1 24 3 4 2 3 0 0 0 1 0 1 53 s9 27 3 2 13 17 0 0 0 2 0 1 0 8 s8 30 13 3 13 20 1 1 9 2 2 0 0 2 s7 13 11 3 4 14 1 1 1 0 2 0 1 53 s6 31 2 2 14 17 1 0 3 0 0 0 7 1 0 1 s5 46 3 2 3 2 8 0 0 1 2 0 0 3 25 1 s4 26 6 2 4 6 0 4 0 2 0 0 0 1 0 54 s3 20 8 1 3 3 0 2 0 1 0 8 43 s2 35 10 2 3 26 0 0 1 5 0 0 0 s10 45 13 5 3 9 1 5 6 1 3 0 0 0
Bulk EDS analysis was collected from the whole area shown in the corresponding images, it represents an average compositions of the area Please note that the EDS results may include elemental information from the filter paper
Corresponding Images
All provided images are BSE (back scatter electron) Images. The BSE detector directly response to density, brighter objects have a higher density
Corresponding Images (Bulk Area)
Corresponding Images (Spot Analysis)
Gun Vacuum • J.96e-007 m8ar etiQhtn(JSS • '1S.9 % WO • 25.0 Mtf1 ~1 I • 2.-493 A
F'it,1,mentAQ• .. 1082.69 Ho1,.1rsStaoe at Z • 14.9M mm s1ona1 A• Q&SD ipot Size • soa
Gun V•cuum • J.97e-007 moar 8riQhtnoH • ..S.9% WD•25.0mm h l l- 2 .493A
1-,lamentAQe - 1oa2.?• HoursStaoa at Z • 14.90'5 mm s,onal A • QOSO Spot Sin .. 501
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